DE643451C - Unit consisting of a regulating motor and a synchronous motor for driving sound film machines - Google Patents

Description

A unit consisting of a regulating motor and a synchronous motor for the drive of audio film equipment. The audio film equipment is required to be suitable for showing both audio and so-called silent films. While with the former the apparatus has to work at a constant speed corresponding to a film advance of 24 frames per second, with the silent films it is important to be able to change the speed within wide limits. Up to now, two separate motors were generally used to drive the demonstration apparatus, which could optionally be connected to the apparatus by means of special coupling transmission elements. The controllable motor was mostly a direct current or single-phase commutator motor, the speed of which could be increased to around 50 frames per second, while the sound film was operated by a synchronously running alternating current motor. each of these motors had to be rated for the full power required to advance the film. It has also already been proposed to arrange a synchronous motor excited by direct current on the shaft of the regulating motor instead of the independent synchronous motor with starting winding and to switch this to an alternating current network when the synchronous speed is reached. Even if with this arrangement the output of the synchronous motor only needs to be so great that it covers the power requirement required to keep the speed of the regulating motor constant, there is a major disadvantage in that the synchronous motor excited with direct current is outside the synchronous speed does not exert any torque and that the synchronous speed can only be reached from bottom to top and also from top to bottom by operating the regulating devices of the regulating motor. Special regulation and control devices are therefore necessary in order to be able to monitor the synchronism.

According to the invention, these disadvantages are avoided in that the on a common, drive shaft working motors of the unit in cascade are switched and cause the synchronization, de rear engine on after Reaction principle with self-starting through a synchronous motor built with a cage winding is.

lii Fig. i, the adjustable motor is marked with I. Its stator a is fed from the mains it ', the rotor b has three slip rings s, from which the current can be fed to the regulating resistor c as well as to a second motor II. In Ständere, this motor 11 has a multi-phase winding to be the rotor d is a squirrel-cage rotor with recesses f, as are usual upon reaction Sina machines. The armature b and d of the two machines sit on a common shaft. The engine is started and regulated by the resistor c. If the motor 1 is wound with two poles, then its speed is around 3ooo at 50 periods. When showing a silent film, the motor can be regulated downwards within any limits. When showing sound films, the motor 11 is switched to the rotor b and the starter c completely or partially switched off, so that both motors run in a cascade connection. Due to the Z, special design of the rotor of the motor 11 , the unit then runs synchronously with i 500 revolutions per minute.

The two motors can also be connected as shown in Fig. 2. Here the rotor of the second motor is also wound and connected to the rotor by three lines. In the three connection lines there is a short-circuit device g, which can be operated by a button k . The stator e is provided with a cage winding and has recesses. The unit can now be started with the starter c when the short-circuit device is open. When the latter is short-circuited, the machine runs s -, nchron. If, however, 'g is short-circuited - the motorIl becomes ineffective and the motorl can be regulated as required by c. It could also be the Läuferb the engine I lie on the network ', the rotor of the motor 1 e 1 with a cage Wick-lung and recesses provided and a stator being connected to the stator e via a short-circuit device.

According to Fig. 3 , this principle can also be extended to commutator motors.

The motor 1 can, for example, be a single-phase commutator motor, the armature winding of which is tapped in a multi-phase manner and guided to slip rings. Directly coupled is again a multi-phase reluctance motor, the stator of which can be connected to the slip rings of Motorl. If the slip rings are short-circuited by the switch, motor II has no effect and motor 1 runs as an adjustable commutator motor. If switch k is opened and switch i is closed, 1 runs synchronously in cascade with II. The reversal of the mode of operation of the stator and rotor as shown in Fig. 2 can also be used here.

The current for feeding a secondary motor for the film or record drive can optionally be taken from the slip rings of the motor 1. If this secondary motor is fed twice by connecting its second winding to the mains, this motor starts and stops synchronously with encoder motor 1.

Claims (2)

PATENT CLAIM: i. From a regulating motor and a synchromotor existing unit for driving sound film apparatus in such a way that they run synchronously at a certain speed, but also move by about i oo% can be regulated in the speed, characterized in that the on a common Drive shaft working motors of the unit are connected in cascade and the the rear motor that effects synchronization is based on the self-starting reaction principle built synchronous motor. 2. Drive unit according to claim i, characterized in that that the front motor is an AC commutator motor.